The optimum conditions, such as pH, immobilization time, temperature, and enzyme dose, for carbonic anhydrase (CA) immobilized on the polyester polyurethane prepolymer 80 were investigated. Simultaneously, the performances (e.g., pH, thermal, operational, and storage stabilities) of immobilized CA and free CA were compared. The results revealed that the optimum conditions, such as pH value of Tris−HCl buffer, immobilization time, temperature, and enzyme dose, of immobilized CA were 7.5, 24 h, 35 °C, and 1 mL of enzyme solution (0.1 mg/mL)/0.1 g of polyester 80, respectively. Moreover, pH and operational, thermal, and storage stabilities of immobilized CA were higher than those of free CA. On this basis, the experiment was conducted to immobilize CA to absorb CO 2 . The results indicated that the CO 2 concentration, liquid/gas ratio, and gas flow rate may affect the properties of CO 2 absorption. The CO 2 absorption efficiency dropped from 63 to 42.7% with an increase in the CO 2 concentration from 9 to 15.4%. With the increase of the gas flow rate, the CO 2 absorption efficiency first increased and subsequently decreased. The absorption efficiency increased from 30.9 to 57.7% with an increase in the liquid/gas ratio from 26 to 34 L/m 3 . The optimal operating conditions can accelerate the absorption rate of CO 2 and reduce the usage of immobilized CA, which can reduce the cost of CO 2 sequestration.